The Intersection of Sleep and Hair Loss: A Systematic Review
摘要
Sleep disturbance is increasingly recognized as a modifier of dermatologic disease, yet its role in hair loss remains underexplored. Hair loss disorders, including alopecia areata (AA), androgenetic alopecia (AGA), telogen effluvium (TE), and scarring alopecias, carry substantial psychosocial burden and involve neuroendocrine and immune pathways sensitive to sleep quality.
ObjectiveTo systematically evaluate associations between sleep disturbances and hair loss across major hair loss subtypes, define shared and subtype-specific mechanisms, and highlight insights relevant to counseling, symptom monitoring, and dermatologic management.
MethodsA Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA)-guided systematic review of PubMed and Scopus identified 291 studies examining sleep disturbances in hair loss. After duplicate removal and screening by two independent reviewers, 29 studies were included. Extracted data included study design, level of evidence, hair loss subtype, sleep measures, mechanisms, and psychosocial correlates.
ResultsOverall evidence quality was low to moderate (1 level II, 11 level III, 14 level IV, and 3 level V), with cross-sectional studies predominating (n = 15). AA was most represented (n = 14), followed by AGA (n = 11), TE (n = 3), lichen planopilaris (LPP) (n = 1), and traction alopecia (n = 1). Sleep disturbance was consistently elevated across AA, AGA, TE, and LPP populations, commonly assessed by the PSQI. Mechanistic themes varied by subtype: cytokine activation, hypothalamic–pituitary–adrenal axis dysregulation, and altered clock-genes in AA; circadian misalignment, obstructive sleep apnea-related hypoxia, and hormonal imbalance in AGA; neurogenic inflammation and substance-P pathways in TE; and chronic pruritus and pain in LPP. Psychosocial distress amplified sleep disruption in most subtypes.
ConclusionsAcross hair loss disorders, sleep disturbance emerges as a biologically plausible and clinically relevant contributor to disease burden. Although most evidence is observational, converging mechanistic and psychosocial data support a bidirectional relationship between sleep quality and hair loss. Incorporating brief sleep assessments into hair loss care and considering sleep-targeted interventions may improve disease stability and patient well-being. Longitudinal and mechanistic studies are needed to clarify causality and identify therapeutic targets.